Photographic enlarging or reducing apparatus.



. H. R. COOK. PHOTOGRAPHIO ENLARGING OR REDUCING APPARATUS.

APPLICATION FILED APR. 1, 1905.

PATENTED AUG. 11, 1908..

6 SHEETS-SHEET l.

No. 895,968. PATENTED AUG. 11, 1908. H. R. COOK.

PHOTOGRAPHIG ENLARGING OR REDUCING APPARATUS.

APPLICATION TILED APR. 1, 1905.

v 6SHEETSSHEET 2.

M I w PATENTED AUG. 11, 1908. H. R. COOK.

PHOTOGRAPHIC ENLARGING 0R REDUCING APPARATUS.

APPLICATION FILED APR.1, 1905.

6 SHEETS-SHEET 3.

No. 895,968. PATENTED AUG. 11

- H. R. OOOK. PHOTOGRAPHIO ENLARGING OR REDUCING APPARATUS.

APPLICATION FILED APR. 1, 1905.

6 SHEETSSHEET 4.

No. 895,968. PATENTED'A'UG. 11, 1908. H. R. 000K.

PHOTOGRAPHIG ENLARGING OR REDUCING APPARATUS.

APPLICATION FILED APR.1, 1905.

6 SHEETS-SHEET 5.

No. 895,968. PATENTED AUG. 11, 1908.

H. R. 000K. PHOTOGRAPHIO ENLARGING OR REDUCING APPARATUS.

APPLICATION TILED APRpl, 1905.

6 SHEETSSHEET 6.

UNITED sTA rEs PATENT OFFICE.

nann mix COOK, or FAREHAM, ENGLAND.

PHOTOGRAPHIC ENLARGING OR REDUCING APPARATUS.

Specification of Letters Patent.

Patented Aug. 11, 1908.

Application filed April 1, 1905. Serial No. 253,836.

- To all whom it may concern:

of apparatus either one of the three components carrying respectively the positive, the lens, or the negative, may be fixed in relation to the base-board and the other two movable; and the relative distances between the lens and the negative to be copied and that between the lens and the positive to be made, must be adjusted according to the focus of the lens .in use and the degree ofenlargement or reduction desired. For the sake of simplicity these-distances will be called hereinafter the front focus and back focus respectively. 3

Now the ob'ec't of this invention is to en able the front focus and back focus to be automatically and at the same time truly adjusted simultaneously with the adjust ment of the apparatus so that whatever degree of enlargement or reduction within certain practical limits may be desired, the various components will .be correctly placed relatively .to one another withoutthought or calculation on the part of the operator; whereby I am enabled to provide an apparatus so that whatever size of picture is desired, it is only necessary to place either the enlargement carrier or the lens carrier in position and by a lever or system of levers accurate focus is obtained without calculation or visual effort on the part of the operator.

As 'is well-known, when an enlargement reqi'iire's to be made, the length of the back focus-may be expressed by the formula where f l the equivalent focus of the lens, 5

' and "n the factor of enlargement. And

in the same way, the length of the front focus may be expressed by That is to say for every additional, unit of enlargement the back focus increases by a fixed increment and the front focus diminishes by a constantly decreasing amount. Now if a lever be pivoted at one end of a given base, and inclined so as to form the hypotenuse of a'right angled triangle of which the remaining side is equal to the equivalent focus of the lens, it

can be shown that the uniform movement of a point acting against the lever, along a line parallel to the base, will depress the lever so that it cuts the side of the trian le in a constantly diminishing ratio. An similarly a right-angled lever may be pivoted at one end of the base, so that the latter intersects the angle between the arms of the lever, thenif one arm of the lever be inclined so as to form the hypotenuse of a right-angled triangle as before and the remaining side be made equal to the equivalent focus of the lens, it can be shown that the uniform movement of a point acting on the other arm of the lever, alon a line at right angles'to the base, will cause t e lever to move a constantly decreasing distance along the side of the triangle. In both cases, in order that the uniform movement of the actuating point, which should correspond to that of the back focus, may cause the decreasing rate of movement of the lever along the side of the triangle to correspond to that of the front focus, it is. necessary that the distance traveled by the point for each unitof ma nification, should be, to the distance of its pat from the pivot of the lever, as the len th of the base is to the focus of the lensor t is ratio may be expressed as=the co-tan ent of the angle made by the lever with the ase in the first position. This relation may be expressed in differentterms in the following manner :R X cos. 6 =f X a, where R equals the length of the lever and t9 the angle of inclination of the lever tothe axis of the lens. The ratio of enlargement being foreach carrier the relative size of its picture to that of the other.

In order to embody the above principlein an enlarging apparatus, according to this 1nvention, the distance of the negativev carrier from the lens is adjusted by means of a lever or levers movable in a plane at right angles to the planes of the opposite surfaces of the positive and negative and suitably inclined to the planes of the latter. Said lever or levers may be attachedto the negative carrier in anysuitable manner, but preferably by a pin or stud which passes throu%h a longitudinal slot in each said lever. y altering movement of the or slotin the lever.

the angle of inclination of this lever (or levers) the negative carrier tends to move along the base-board of the a aratus .at right angles to its own plane. e inclination of the lever may be effected by the movement of the lens carrier, or alternatively by the ositive carrier along the base-board. For t is purpose the lever may be straight and pivoted to the lens carrier; and a pm or feather may Work against the lever in such a manner that when the in or feather is moved transversely in relation to the lever the inclination of the latter is altered.

As an alternative method the pin or feather may be fixed to a bush or cursor traveling on a screwcut on a shaft which carries a pinion,

which may be used in the usual manner in combination with a rack, to move the lens carrier along the base-board. This in or feather may work against the lever 1n any suitable manner, as for instance in a groove Or again, in place of a straight lever pivoted to the lens carrier, a lever rigidly bent at right angles may be used. This bent lever may be pivoted either to the lens carrier or to the base-board of the apparatus, and one arm may be attached to the negative carrier by a pin or lStUd passing through a slot in the arm of the ever.

Working against the other arm of the lever maybe a pin or stud fixed to the baseboard or to the positive carrier, so that when the lens carrier or the positive carrier is moved along the base-board the angle of inclination of the lever is altered.

In place of one lever, in every case a pair of similar levers may be used in combination and arrangedto correspondingly act in conjunction with one another; and the levers and pins may be fixed in or near the plane of the base-b0 ard, or alternatively if desired may be attached or arranged on the sides or top of the app aratus.,/ And in order that my pres-.

ent invention may be the more easily understood and readily carried into practice I will proceed to further describe same with reference to the drawings hereunto annexed.

Figures 1 and 2 are geometrical diagrams,

illustrating the mathematical theorem which I employ in carrying out my present invention as herein explained. Fig. 3 is a plan in diagrammatic form of an enlarging or reducing apparatus showing one method of carrying my present invention into practice. Figs. 4 and 5 are similar plan views (each on a smaller scale) showing two alternative methods of carrying out my present invention. Fig. 6 is a plan view (on a larger scale than Figs. 4 and 5) of an enlarging or reducing apparatus showing another method of carrying out my present invention; this lastnamed methodhaving the advantage of being very simple and inexpensive in its application and manufacture, and the lens carrier in this case is fixedthis being advantageous in order to insure absolute accuracy. Fig. 7 is a side elevation and Fig. 8 a plan view (both on a considerably larger scale than the other figures) showing the complete enlarging or reducing apparatus and in which the method of automatically adjusting same as illustrated in Fig. 6 is employed.

To fully explain the mathematical theorem involved reference should be made to Fig. 1 in which A C is a lever pivoted to the point A in the base A B forming the hypotenuse of a right-angled triangle A B O in which the remaining side B C is equivalent to the focal length of the lens.

From a point D in a line A L normal to the base A B, a line D X is drawn parallel to the line A B cutting the line A C at the point E. If the line D X be now divided at the points F and G so that E F, F G, are each equal to D E it Will be seen that if the line (lever) A C be de ressed until it cuts the line D XatF it will exactly bisect the side B C; similarly if depressed until it cuts the line D X at G it will divide B C at K, and B K is one-third of B C Thus it will be seen that if the intersection of the lever A O with the line D X be at a point distant (D E n) from the point D, then the intersection of the lever A G with the side B C will be at a distance from B equal to B C+n.

In Fig. 2; C, A, M, represents a right angled lever pivoted at the point A in the base A B.

A C forms the hypotenuse of a right-angled triangle A B C, in which the side B C is equal to the equivalent focus of the lens; now if D X be drawn at right angles to A B cutting the other arm of the lever A M at E, and if E F be made equal to D E, and if D X be divided at F and G so that E F, F G, are each equal to D E, then if the arm of the lever A M be moved so as to intersect the line D X at F the other arm A C of the lever will bisect the line B O at H. And as before, if the long arm of the lever intersects the line D X at a point ('n, X D E) distant from D, then the short arm of the lever will intersect B C at a point (B C+n) distant from B. That is to say, if D E be made equal to f, the equivalent focus of the lens, then as the position of the lever along the line D X varies as nXD E, or as n f, the position of the lever along the line B C varies as B C n, or as f'+'n, which satisfies the formulae for the model of Fig. ]:I cause a point to move along the line D X the said point moving by gearin" or otherwise in direct pro ortion with the movement of the lens earner) towards or away from the positive carrier) along the base-board so that a uniform movement of the lens carrier causes a varying motion of the lever connecting the lens carrier with the negative carrier. c

In an a paratus constructed on the model of Fig. 2 l cause a point E fixed to the base of the positive carrler to act on the arm of the lever A M so that when the distance of the point E on the positive carrier is varied from the pivot A of the lever, and the positive carrier is thereby altered, the other arm of the lever causes a varying motion of the lever A connecting the lens carrier with the ne ative carrier.

n one form of carryin this invention into practice as illustrated in .ig. 3 I have shown the positive carrier a fixed to the base-board or frame 2 alon which both the negative carrier b and the ens carrier 0 respectively are .moved as follows :d d arepinions adapted to berotated along the racks e by the mllled heads (1 on the shaft (1 which latter is journaled in bearings 0 attached to the lens carrier c, and this shaft d is provided with right and left handed screw-threads d d thereon upon each of which latter respectively is mounted an internally screw-threaded sleeve bush'or eursorf each of which latter is provided with a pin f 1 located in or operating in of which latter is respectively pivoted at g to the movable lens carrier 0. b b are pins fixed on the negative carrier and located in and operating on the aforesaid slotted levers g 9 At unity (that is when thetwo ictures on the negative and positive are of t e same size) the distance of an imaginary line con necting the pivot points 6 on the negative carrier from an imaginary line connecting the points g on the lens carrier 0 will thus be equal to the equivalent focus of the lens while the pitch of the-right and left handed screw (i and the diameter of the pinion d, and the distance of the axial line of said shaft (1 from the imaginary line connecting thecenters g must be such as to produce the relative movement of the lens carrier 0 .and the negative carrier as hereinbefore defined with reference to Fig. 1. I a

The position of the o tical center. of eachlens depending on the c aracter of the latter such osition is a factor which must of course be ta en into consideration in all cases in constructing this apparatus.

In Fig. 4 thepositive carrier a is fixed and the negative carrier 6 and lens carrier 0 are Inovab e as in Fig. .3; in the arrangement shown in Fig. 4 however the mechanism employed conslsts of two right-angled levers h respectively pivoted at i to the movable lens are forced past the points 1' 7' of attachment the slot 9 of each of the slotted levers geach.

carrier 0 the longer arm h of each said 'lever either being adapted to slide freel through a swivel eye at the point 7', where it is fixed to the base board, and thus connected to the carrier 0 which is also fixed to the base board, or said arms k may be slotted so as to be adapted to slide over a fixed pin or stud at 7'; \while the other end h of each said lever is attached at the point is to or otherwise arranged to act at the point is on the movable negative carrier 6, such connection at k being effected by means of a stud engaging in a slot in the lever arms h or the latter ma pass through a swivel eye-or other similar or equivalent devices may be employed.

To' adjust the apparatus; the operator moves the carriers direct or pushes or ulls the ends of the levers h in the direction 0 the double-ended arrows r, so that as the levers or connection to the positive carrier a consequently each rectangular lever is rocked on its ivot z', and thereby the outer end k of eac lever moves the negative carrier 1), and the desired relative movement is thereby imparted to the lens carrier 0 and the negative carrier bb0th relatively to one another and to the positive carrier.

' In Fig. 5; an arrangement of levers h h is shown somewhat similar to Fig. 4, said levers being pivoted at 'i to the lens carrier 0; but in this case the positive carrier a is made movable and has the levers h attached or connected thereto at 9' in a similar manner to that described with reference to the point of attachment a't of said levers h in Fig. 4; while the other ends it of said levers are similarly attached at m (as at y') to the base 2 or the negative holder 1) which latter in this arrangement is fixed. In Figs. 6 to 8 the lens carrier 4 is fixed to the base 2 and the right-angled levers n are pivoted at 0 to the basethe dotted line shown connecting the twopivot points 0 in Fig. 6 being advantageously (but not neces- 11G sarily) in the same vertical plane as the optical center of the lens provided in said fixed lens carrier 3 the arm n of each lever n is slotted at W; and a fixed pin or stud etc. p carried on the positive carrier a engages in said slot n; or said arms a instead of being slotted may slide through a swivel eye at the point p; and similarly the arm n of each lever 12. is attached or connected at the point g to the movable negative carrier b.

. The distance of the points of attachment or connection at g g of the levers n to the movable negative carrier b from the imaginary line through the pivot points 0 0, and the distance of the points of attachment or 5 connection at p p of the levers a to the movable positive carrier (1 from said imaginary line between the points 0, must each be equal to the equivalent'focus of the lens when the parts are at unity-that is when the two pio- 130 tures are of the same size; and by sliding either the carrier or I) along the base 2 either towards or away from the fixed lens carrier y by means of said levers n connecting as aforesaid the said two movable carriers, the latter will be differentially moved in the roper ratio to produce automatic focusing or enlarging or reducing purposes.

If desired the adjustment of the carriers a and b Fig. 6 (or adjustment of the other movable arts as in Figs. 4 and 5) may be effected by t e operator graspin the ends it of the levers h (or ends it of t e levers h) and by forcing said two ends towards or away from' one another, the aforesaid component parts of the apparatus can be automatically set in focus to enlar e or reduce to any desired extent within t e limits of the apparatus which in the exam le shown in Fig. 6 would amount to about tliree magnifications. For the purpose of-thus utilizing the levers n or k to operate the apparatus, said levers may be of operating same.

prolonged so as to extend to any desired point beyond the ap aratus; and each lever may be provided wit a knob handle or other mechanism or attachments for the purpose sponds with the point C. The distance between the lines o 0 and g q'corresponds with .the distance B C (which is canal to the equivalent focus of the lens), an the distance between the lines pp and 0 0 also corresponds with the distance DE which causes the line B C to equal the e uivalent focus of the lens. The point 1) being ed in the carrier a moves along a path parallel to the sides of the base board, and at right angles to the line 0 0. The said path of the point therefore, corres onds with the line D X, ig. 2. Similarly t e point q being fixed in the negative carrier (which is movable along the base board 2) its path corresponds to the line B 0. Hence as positive carrier 0 is moved along the base board, the distance of the oint p from the line 0 0 varies as f X n, and t e distance of the point g from the line 0 0 will vary as f+ n, which satisfiesthe formulae for the lengths of the front and back foci.

In Figs. 7 and 8 the positive carrier a and the negative carrier b are shown at about unity osition and attached to the lens carrier 0 means of the ordinary or any suitable be lows 'w w the latter '5. e. the bellows attaching the negative holder tothe lens carrier being advantageously arran ed in any suitable manner so as to be rea ily detachable from the lens carrier to thereby permit access to the lens. Means are also advantageously provided to enable said lens to be changed, and to adjust the osition of said lens (11. e. the optical center) re atively to its carrier 0; for example the lens may be mounted in a movable housing adapted to be moved longitudinall by a rack and pinion motion-as indicate in the drawin s; or, obviously such lens may be mounte and adjusted if desired in any other suitable manner.

When required, for the purpose of enabling different lenses '8. e. lenses of different focal length to be employed in this apparatus,I provide means to vary the res ectlve points of attachment at g and p of t e levers n to the carriers a b, so as to compensate for variation of the focal length in different lenses and so that when this adjustment has been obtained the parts can then be all secured relatively to one another in such a manner that the automatic adjustment of the focus of the apparatus for different enlargements or reductions will then take place as before.

The means illustrated in Figs. 7 and 8 for obtaining the aforesaid adjustment, to compensate for the different focal length in different lenses, consists of the slot or guideway or slotted ways or guideways s s which are respectively arranged parallel to the arms a of the levers n when in the unity position as aforesaid; and similar slotted ways or guideways t t arranged parallel to the arms a of the levers n when the latter are in said unity position; the said slotted ways or guideways s .9 being fixed to and carried by the carrier 1) as shown, while the slotted ways or guideways if t are fixed.to and carried by the carrier a as shown.

The pins or swivel eyes g g are adapted to slide along in or upon the said slotted ways 8 s and also are adapted to be clamped or otherwise secured in any position along same, and similarly with the pins or swivel eyes 1) p on or in the slotted ways If it. Thus when a lens of different focallength is to be employed, the levers n are first set to unity and then the pins or swivels p p and g g are unclamped or released from or upon the guide-ways t t and s s; the carriers a and b are then adjusted (in either direction) along the base-board until the indicators a and v respectively show on the scales u and v the equivalent focus of the lens in question or (if this latter is not already known) until the two images appear the same size on the screens and the reading on the scales correspond; and thereupon the pins etc. p and g are clamped and secured in the position they now occupy on the slotted ways or guideways t and s and thereafter the apparatus will act automatically (as before) while such lens is continued to be used.

In the arrangement shown in Fig. 3 where the lever is controlled by a pin on a sleeve or cursor traversing along a screw, the practical measurements for the purposes of construction may be made as followsz-There is one constant, viz. the equivalent focus of the lens, and four variables, viz. (l) the inclination of the lever (2) the pitch-of the screw (3) the circumference of the pinion, and (4) the distance of theaxis of the screw from the pivot of the lever. The simplest method of showing how to determine the-ratio of these factors is to take an example ;for instance let 6 inches be the equivalent focus of the lens, and let the inclination of the lever be measured in terms of the tangent of its angle of inclination with a line at right angles to the axis of the lens, (that is to say, the vertical distance B 0 compared to the horizontal dis-- tance AB, Fig. 1, or B O) A B ratio of the distance bg to the distance 9' g,

b! 2 g, g, I further, let three turns or as in Fig. the

thatis to say to the inch represent the pitch of the screw and one inch the pitch circumference of the p1n1on,-1t 1s now-only necessary'to determine the distance of the axis of the said pinion or screw from the pivot of the lever. As the lens carrier must move along the base-board six inches for each unit of enlargement; the pitch of the screw being three turns to the mob, the pinion must revolve three timesto move the cursor one inch, that is to say a movement of six inches of the pinion along the rack will move the cursor two inches along the screw. And as already stated the ratio of the distance moved by-the cursor for each unit of enlargement, to the distance of -its path from the pivot ofthe lever, must equal the co-tangent of the angle of inclination of the lever. Hence, as the inclination of the lever (in this exam le) is 7}, the co-tangent of the angle equals T and the distance of the axis of the screw from the pivot of the lever must be half the distance moved by the cursor for each unit of enlargement, that is to say one inch.

In the arrangement as shown in Figs. 4 5' and6 the position of the points of attachment or connection of the levers to (i. e. the points where same act on) the negative and ositive carriers may be determined as folowsz-The levers and negative and ositive carriers are placed in the posltlon t ey are intended to occu y when the apparatus is at- --the base A B.

fx n, respectivel the movement of the levers controls t ese variable distances, it is obvious that when atunity the two variable distances must each be equal to ,the equivalent focus of the lens-for at umty. these distances should be Z, and fx 1, both ofwhich are equal to f. he positions of the vertical planes or image bearing surfacesof the negative and positive carriers may be likewise determined by lines drawn at right angles to the axis of the lens at a distance from its 0 tical center equal to twice the length of t e' V the apparatus, as shown in Figs. 4, 5, 6, 7,

and 8, and to permit the use of lenses of varying focal le ths in one and the same a aratus, it is esirable'to add a special a ustment shown in Fig. 8 (s s, t t) consisting of slots or guide-ways 1n the bases of the negative and positive carriers. The length and positions of the said guide-ways t i, s 8 may be determined as follows :-The position of the points where the levers act on the carriers for the lens of longest focal length which it is intended to use in the ap aratus maybe first found by the method be ore described. Now let lines be drawn from these points parallel to the arms of the opposite levers in a direction away from the lens. These lines will indicate the center of the slots of the required guide-ways s s, t t, and may be made of such a length that their terminals are as far away from the line drawn through the points where the levers act on the carriers as the difference between the longest and shortest focal lengths of lenses intended to be used in the apparatus. This willbe understood when it is considered that for every difference of one inch less in the focal length ofthe lens to be used, the carriers must close in towards the lens a distance of tWo inches, see the p p, q q, must be one inch nearer the lens. The net result of these two movements would be a displacement of the position of the points towards the pivot point A, if they are made shorter, in order to meet the lever arms A C, A M, and the base A B when the leversmaintain their former position. The'amoun't of this. displacement varies according to the res ective angle of inclination of the arms of the levers, and may be stated as dXcot. 6, Whered e uals the amount of shortening of the lines B Cf D E, and 0 equals the angle of inclination of the res ective'arms of the lever with ence as the points p p, qg, Fig.6 correspond With the points 0 and E, re-

. spectively, Fig. 2, therefore the points 19 p, g g

formulae for focal lengths; "and also the points must be displaced on the base of the positive and negative carriers in lines at right angles to the sides of the base board, and in the direction of the ivots of their respective levers. The net resu t of the above two displacements of the points p p, q 9, would therefore be in the direction of the diagonal of a rectangle measuring one inch on the side parallel to the sides of the base board, and'one inch multiplied by the cotangent of the angle of inclination of the respective arms of the levers, on the side at right angles to the sides of the base board. These diagonals are as stated parallel to the respective arms of the opposite levers. A reference to Fig. 8 will make this clear.

The above described means of adjustment facilitates the construction of a large number of apparatus to the same model and measurements, and enables them to be fitted subsequently with lenses of varying focal lengths. For this purpose it is only necessary to place the levers in the osition they are intended to occupy when t 1e ap aratus is at unity and to set the vertical p anes of the negative and positive carriers at a distance respectively from the optical center of the lens equal to twice its equivalent focus, since from the formula for focal lengths, the length of the front focus must equal f plus f+ Z, and the back focus must equal f plus f Z, when the images are of the same size, that is to say, in each case a distance equal to twice the equivalent focus of the lens. The axis of each arm of the lever will then intersect the center i of its respective adjusting guide-way at the point required for the reception of the pivotal studs p and g. These studs may then be permanently fixed or temporarily clamped in position on the bases of the positive and negative carriers.

To facilitate the adjustment of the distance of the vertical planes of the ositive and negative carriers from the optica center of the lens, index marks or an indicator to 42 may be laced on the carriers, and scales u o attache to the base-board e. g. as shown in Fig. 8.

It is advantageous for the levers to be symmetrical to facilitate ease of construction and smooth working of the apparatus; and the levers may be of any desired shape, provided the lines which respectively join the pivot point of the lever and the point of its attachment to (or where it acts on) the negative and positive carriers, always meet at ri ht angles to one another at the pivot of said ever.

If desired instead of fixing the levers in or near the plane of the base-board of the appa- -ratus they may be afiixed to the top or sides of the apparatus, as for instance a lever on each side of the apparatus workin in a vertical plane parallel to the axis of t e lens.

For purposes of description the term negative carrier has been applied to that component of the apparatus which carries the copy when an enlargement is to be made, and the term positive carrier has been applied to the component carrying the enlargement; but it will be readily understood that the apparatus may be used vice-versa, and a reduced picture made from a larger copy, by simply turning the apparatus end for end with regard to the source of illumination, and placing the plate or paper to be exposed and the picture to be copied in the suitable respective carriers. i

In place of studs working in feather ways on the levers, any suitable mechanical equivalents may be adopted, as for instance the arms of the levers may work in sleeves pivoted to the carriers, or between anti-friction rollers, pivoted to the carriers; and in the latter case the rollers at each point of attachment should be coupled together, and have one common pivot so that they adjust themselves according to the angle the lever makes with the carrier to which it is attached.

In the practical construction of this apparatus it is immaterial whether the vertical plane through the optical center of the lens, passes through the line joining the pivots of the levers or not, but it is necessary that the distance of the points of attachment of the levers to the negative and positive carriers from the line through the-pivots of the levers should each be equal to the equivalent focus of the lens when the apparatus is at unityand therefore the distance between the points of attachment of thelevers to the negative carrier, from thepoint of attachment of the respective levers to the positive carrier must be twice the equivalent focus of the lens. I

Should the vertical plane through the o tical center of the lens not coincide with t e line joining the pivots of the levers, the distances of the vertical planes of the negative holder, and positive holder from the oints of attachment must be adjusted so that at unity the total distance between these lanes must be equal to four times the focal ength of the lens, and each of these planes must respectively be distant from the optical center of the lens twice the equivalent focus of the lens. 0 0, p p, and g 9 may be shifted backwards or forwards in constructing the ap aratus, as convenient, anywhere between t e vertical planes or surfaces carrying the images on the carriers a and I), provided alwa s that the For instance (see Fig. 6), the lines relative distances between these ines is pre- A reference to the drawings will show that in the various arrangements illustrated the following points are common to all v1z:

(1) A lever having a pivot fixed in relation to the lens. (2) Two points of control acting in conjunction with the lever; viz. one (directly or indirectly) connected with or arranged to act on each image ,carrier. (3) The distances of these points of control from the pivot of the lever are variable, and the ratio of the said'distances varies directly as the ratio of the size of the images on the respective carriers. (4) The mechanism which connects the lens support, the image support and the object support, compels two of them to move according to a predetermined formula, so that any ad'ustments of the said supports by said mechanism may be made with an accuracy and speed that is not at-.

tainable by any of the mechanisms heretofore proposed.

What I claim is 1. In a photo raphic enlarging and reducing apparatus, t e combination of a positive carrier, alens and a negative carrier, one of these three members being fixed and the other two being movable in relation thereto, connections thereby the movement of one of the movable members will cause the move ment of the other movable member a distance so that the proper focal-lengths on each side of the lens will be maintained, and means foradjusting these parts relatively to each other so that lenses of different focal lengths may be used, substantially as described.

2. In a photographic enlarging or reducing apparatus, the combination of a positive carrier, a negative carrier, and a lens located at a point between said carriers, two of said members being movable and the remaining member being fixed, connections whereby the movement of either of the movable members will automatically cause the movement of the othermember in such a manner as to apparatus, the combination of a base board,

a lens mounted thereon, apositive'carrier located on one side of said lens and a ne ative carrier located on the other side of sai lens, connections whereby the movement of either of said carriers will automatically cause the movement of the other carrier so that the proper distances of the carriers from the lens will always bemaintai-ned, said connections including slotted right angled levers pivoted substantially in line with said lens, said slot-- ted levers engaging pins whereby the movement of said levers will operate said carriers, and means for adjusting said levers so as toadjust the distances of said carriers relatively to said lens, whereby lenses of different powers may be used, substantially as described.

. 4. In a photographic enlarging and reducing apparatus, the combination of a base board, a lens supported thereby, positive and negative carriers, slidably'mounted on said base board, bellows connecting said carriers respectively with said .lens,",means whereb the movement of one of said carriers wi lf carriers, whereby lenses of different powers I may be used, substantially as described.

5. In a photographic enlarging and-reducing apparatus, the combination of a base board, a lens fixed thereon, a positive carrier on one side of said lens and a negative carrier on the other side of sald lens, bellows respectlvely connecting sald earners wlth sald lens,

a scale for each ofsaid carriers, means Wherebythe movement of-one of said carriers will cause a corresponding movement of the other carrier so as to always preserve the proper focal distances from the lens, said means con sisting of slotted right angled levers pivoted to said base board substantially in line with said lens, pins or studs carried by said carriers respectively for engaging the slots in the respective arms of said levers, and means for adjusting said pins so that lenses of different powers may be used consisting of sliding" guideways on said base board, and set screws, substantially as described. 6. In a photographic enlarging'and reducing apparatus, the combination of a base board, a lens mounted thereon, a positive, carrier on one side of said lens, and a negative carrier on the other side of said lens, both slidably mounted on said base board, connec- ""tions whereby the movement of one of said carriers will cause the movement of the other of said carriers to preserve the proper relat1ve distances ofsald carriers from said lens,

5 said connections including a pair of slotted right angled levers with their angles facing each other pivoted to said base board, and pins or studs engaging the slots in the arms of said levers, so that the movement of said levers will move said carriers, and means for adjusting said connections, substantially as described.

7. The combination with aphotographic I camera, comprising a lens support, an Image support and an object support, and ways adapted to guide-two of said sulpports with relation to the third, of a pint e or pintle bearing mounted on each one of the said sup ports and extending in a direction perpendicular to the direction of motion in the said ways, and means for adjusting two of said pintles or pintle bearings or their respective frames in the direction of the said ways.

8. The combination with a photographic camera comprising a lens support, an image support and an object support, and ways adapted to guide two of said supports with relation to the third, mechanism for connectof the lens will be maintained, pintles, or pintle bearings connected to said supports, and 15 means for permitting the adjustment of two of said pintles or pintle hearings or the said su ports in the dlrection of sand slide ways, sufistantially as described.

In witness whereof I have hereunto set my 23 hand in presence of two witnesses.

HENRY REX COOK.

Witnesses:

FREDK. L. RANDs, H. D. JAMESON. 

